\doxysection{Class List}
Here are the classes, structs, unions and interfaces with brief descriptions\+:\begin{DoxyCompactList}
\item\contentsline{section}{\mbox{\hyperlink{struct_abstract_frame}{Abstract\+Frame}} \\*The \mbox{\hyperlink{struct_abstract_frame}{Abstract\+Frame}} is a data structure to decouple packet representation from the internal O\+M\+Ne\+T++/\+I\+N\+ET data structure }{\pageref{struct_abstract_frame}}{}
\item\contentsline{section}{\mbox{\hyperlink{struct_abstract_packet}{Abstract\+Packet}} \\*The \mbox{\hyperlink{struct_abstract_packet}{Abstract\+Packet}} is a data structure to decouple packet representation from the internal O\+M\+Ne\+T++/\+I\+N\+ET data structure }{\pageref{struct_abstract_packet}}{}
\item\contentsline{section}{\mbox{\hyperlink{class_rlc}{Rlc}} \\*\mbox{\hyperlink{class_rlc}{Rlc}} is the O\+M\+Ne\+T++ wrapper implemenatation of the R\+LC layer. It borrows its functionality from the \mbox{\hyperlink{class_rlc_core}{Rlc\+Core}} class }{\pageref{class_rlc}}{}
\item\contentsline{section}{\mbox{\hyperlink{class_rlc_core}{Rlc\+Core}} \\*\mbox{\hyperlink{class_rlc_core}{Rlc\+Core}} is a pure C++ implementation of the fragmentation/reassembly logic }{\pageref{class_rlc_core}}{}
\item\contentsline{section}{\mbox{\hyperlink{class_tdma_mac}{Tdma\+Mac}} }{\pageref{class_tdma_mac}}{}
\item\contentsline{section}{\mbox{\hyperlink{class_tdma_scheduler}{Tdma\+Scheduler}} }{\pageref{class_tdma_scheduler}}{}
\end{DoxyCompactList}
